‘Cell-based’ models provide a powerful computational tool for studying the mechanisms underlying the growth and dynamics of biological tissues in health and disease. An increasing amount of quantitative data with cellular resolution has paved the way for the quantitative parameterisation and validation of such models. However, the numerical implementation of cell-based models remains challenging, and little work has been done to understand to what extent implementation choices may influence model predictions. Here, we consider the numerical implementation of a popular class of cell-based models called vertex models, which are often used to study epithelial tissues. In two-dimensional vertex models, a tissue is approximated as a tessellation...
The purpose of this thesis is to develop a vertex model framework that can be used to perform comput...
We introduce an Active Vertex Model (AVM) for cell-resolution studies of the mechanics of confluent ...
<p>(A) Geometric representation of cells. Cell <i>a</i>, in isolation, is modeled as a disk. Cell <i...
‘Cell-based’ models provide a powerful computational tool for studying the mechanisms underlying the...
The growth and dynamics of epithelial tissues govern many morphogenetic processes in embryonic devel...
To understand the mechanisms that coordinate the formation of biological tissues, the use of numeric...
To understand the mechanisms that coordinate the formation of biological tissues, the use of numeric...
The dynamic behaviour of epithelial cell sheets plays a central role during development, growth, dis...
<p>Poster contribution P68 for the workshop on "Mechanics and Growth of Tissues: From Development to...
Morphogenesis - the generation of biological shape and form - is fascinating, and its study promises...
The growth and dynamics of epithelial tissues govern many morphogenetic processes in embryonic devel...
Cell-based models of tissue mechanics have become an important tool in cancer research and developme...
Tissue morphogenesis requires the collective, coordinated motion and deformation of a large number o...
AbstractThe dynamic behavior of epithelial cell sheets plays a central role during numerous developm...
During tissue morphogenesis forces at the cellular level cause deformation of tissues. Through comp...
The purpose of this thesis is to develop a vertex model framework that can be used to perform comput...
We introduce an Active Vertex Model (AVM) for cell-resolution studies of the mechanics of confluent ...
<p>(A) Geometric representation of cells. Cell <i>a</i>, in isolation, is modeled as a disk. Cell <i...
‘Cell-based’ models provide a powerful computational tool for studying the mechanisms underlying the...
The growth and dynamics of epithelial tissues govern many morphogenetic processes in embryonic devel...
To understand the mechanisms that coordinate the formation of biological tissues, the use of numeric...
To understand the mechanisms that coordinate the formation of biological tissues, the use of numeric...
The dynamic behaviour of epithelial cell sheets plays a central role during development, growth, dis...
<p>Poster contribution P68 for the workshop on "Mechanics and Growth of Tissues: From Development to...
Morphogenesis - the generation of biological shape and form - is fascinating, and its study promises...
The growth and dynamics of epithelial tissues govern many morphogenetic processes in embryonic devel...
Cell-based models of tissue mechanics have become an important tool in cancer research and developme...
Tissue morphogenesis requires the collective, coordinated motion and deformation of a large number o...
AbstractThe dynamic behavior of epithelial cell sheets plays a central role during numerous developm...
During tissue morphogenesis forces at the cellular level cause deformation of tissues. Through comp...
The purpose of this thesis is to develop a vertex model framework that can be used to perform comput...
We introduce an Active Vertex Model (AVM) for cell-resolution studies of the mechanics of confluent ...
<p>(A) Geometric representation of cells. Cell <i>a</i>, in isolation, is modeled as a disk. Cell <i...